Left ventricular systolic performance is depressed in chronic pulmonary emphysema in dogs

Abstract

The effect of chronic right ventricular (RV) pressure overload on left ventricular (LV) systolic function in chronic obstructive lung disease is unclear. To examine LV systolic performance in pulmonary emphysema, a chronic canine model was developed in which pulmonary artery pressure could be elevated to a level found in human disease. Severe emphysema was produced by the repeated instillations of the enzyme papain into the lung. Sonomicrometry was used to assess LV dimensions along the septal-lateral, apex-base, and anterior-posterior orthogonal axes of the LV. With the animal conscious, measurements of LV systolic function were obtained over a wide range of LV circumferential end-ejection stresses at baseline and after 1 yr of emphysema (post-1-yr study). In the emphysema group (n = 5), the results showed that at the post-1-yr study, measurements of LV ejection fraction, mean velocity of circumferential shortening, and rate of anterior-posterior dimensional shortening were reduced compared with those obtained at the baseline study. In the emphysema group, end-systolic volume was increased for a given end-systolic pressure or stress at the post-1-yr study compared with baseline values, while fractional shortening measured along the three axes was decreased. There were no similar changes in systolic parameters in control groups. We conclude that chronic RV pressure overload may cause an impairment in LV systolic performance in chronic emphysema.